The Kelch-like ECH-associated protein 1/Nuclear factor erythroid 2 related factor 2/Antioxidant Response Elements (Keap1/Nrf2/ARE) pathway is essential for neuronal resilience against the complex pathogenesis of Parkinson's disease (PD). Activating this pathway by covalently modifying Keap1 cysteine residues is a promising strategy for regulating neuroprotective gene expression. Our study aimed to identify phytochemicals that could irreversibly inhibit Keap1. A preliminary docking analysis revealed that ethyl ferulate could covalently bind with Cys151 of Keap1 by Michael's addition reaction. Further, we designed several ethyl ferulate derivatives with improved lipophilicity and assessed their binding affinity with Keap1. The molecules with good binding scores were synthesized and structures were confirmed through 1H NMR, 13C NMR, FT-IR, and mass spectroscopy. Neuroprotection screening was conducted in all-trans retinoic acid differentiated SH-SY5Y cells using rotenone as a disease-inducing agent. Pre-treatment with compounds C2 and C4 significantly mitigated rotenone toxicity. Additionally, C2 and C4 decreased rotenone-induced ROS production and mitochondrial membrane potential loss. C2 and C4 also induced Nrf2 nuclear translocation in SH-SY5Y cells and increased mRNA expression of heme oxygenase-1, an Nrf2-regulated antioxidant response element. In vivo, pretreatment with C2 (50, 100 mg/kg, p.o.) and C4 (50, 100 mg/kg, p.o.) protected against neurodegenerative phenotypes associated with rotenone (1.5 mg/kg, s.c.) induction in Wistar rats. Results indicate, C2 and C4 dose-dependently improved muscle rigidity, catalepsy, and cognitive deficits in rotenone-induced Wistar rats, and mitigated dopaminergic neurodegeneration in the substantia nigra. These findings highlight the potential of ethyl ferulate derivatives in modulating oxidative stress and neurodegeneration in PD via activation of Nrf2.
Keywords: Covalent Docking; Ethyl Ferulate; Keap1; Nrf2; Oxidative Stress; Parkinson's Disease; Rotenone.
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